Securing Data Center Against Power Attacks

Modern data centers employ complex and specialized power management architectures in the pursuit of energy and thermal efficiency. Interestingly, this rising complexity has exposed a new attack surface in an already vulnerable environment. In this work, we uncover a potent threat stemming from a com...

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Veröffentlicht in:	Journal of hardware and systems security 2019-06, Vol.3 (2), p.177-188
Hauptverfasser:	JS, Rajesh, Rajamanikkam, Chidhambaranathan, Chakraborty, Koushik, Roy, Sanghamitra
Format:	Artikel
Sprache:	eng
Schlagworte:	Blackouts Circuits and Systems Cloud computing Complexity Computer centers Computer Hardware Data centers Demand side management Employees Energy consumption Engineering Information Systems Applications (incl.Internet) Infrastructure Internet of Things Machine learning Power consumption Power management Software Systems and Data Security Thermodynamic efficiency
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container_end_page	188
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container_title	Journal of hardware and systems security
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creator	JS, Rajesh Rajamanikkam, Chidhambaranathan Chakraborty, Koushik Roy, Sanghamitra
description	Modern data centers employ complex and specialized power management architectures in the pursuit of energy and thermal efficiency. Interestingly, this rising complexity has exposed a new attack surface in an already vulnerable environment. In this work, we uncover a potent threat stemming from a compromised power management module in the hypervisor to motivate the need to safeguard the data centers from power attacks. HyperAttack — an internal power attack —maliciously increases the data center power consumption by more than 70 % , while minimally affecting the service level agreement. We propose a machine learning-based secure architecture, SCALE , to detect anomalous power consumption behavior and prevent against power outages due to HyperAttack escalations. SCALE delivers 99 % classification accuracy, with a maximum false positive rate of 3.8 % .
doi_str_mv	10.1007/s41635-019-0064-7
format	Article
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subjects	Blackouts Circuits and Systems Cloud computing Complexity Computer centers Computer Hardware Data centers Demand side management Employees Energy consumption Engineering Information Systems Applications (incl.Internet) Infrastructure Internet of Things Machine learning Power consumption Power management Software Systems and Data Security Thermodynamic efficiency
title	Securing Data Center Against Power Attacks
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